2 * Copyright 2012 Hans Leidekker for CodeWeavers
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Lesser General Public
6 * License as published by the Free Software Foundation; either
7 * version 2.1 of the License, or (at your option) any later version.
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * Lesser General Public License for more details.
14 * You should have received a copy of the GNU Lesser General Public
15 * License along with this library; if not, write to the Free Software
16 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
19 #include "wbemprox_private.h"
32 static const WCHAR class_baseboardW
[] =
33 {'W','i','n','3','2','_','B','a','s','e','B','o','a','r','d',0};
34 static const WCHAR class_biosW
[] =
35 {'W','i','n','3','2','_','B','I','O','S',0};
36 static const WCHAR class_cdromdriveW
[] =
37 {'W','i','n','3','2','_','C','D','R','O','M','D','r','i','v','e',0};
38 static const WCHAR class_compsysW
[] =
39 {'W','i','n','3','2','_','C','o','m','p','u','t','e','r','S','y','s','t','e','m',0};
40 static const WCHAR class_datafileW
[] =
41 {'C','I','M','_','D','a','t','a','F','i','l','e',0};
42 static const WCHAR class_directoryW
[] =
43 {'W','i','n','3','2','_','D','i','r','e','c','t','o','r','y',0};
44 static const WCHAR class_diskdriveW
[] =
45 {'W','i','n','3','2','_','D','i','s','k','D','r','i','v','e',0};
46 static const WCHAR class_diskpartitionW
[] =
47 {'W','i','n','3','2','_','D','i','s','k','P','a','r','t','i','t','i','o','n',0};
48 static const WCHAR class_logicaldiskW
[] =
49 {'W','i','n','3','2','_','L','o','g','i','c','a','l','D','i','s','k',0};
50 static const WCHAR class_logicaldisk2W
[] =
51 {'C','I','M','_','L','o','g','i','c','a','l','D','i','s','k',0};
52 static const WCHAR class_networkadapterW
[] =
53 {'W','i','n','3','2','_','N','e','t','w','o','r','k','A','d','a','p','t','e','r',0};
54 static const WCHAR class_networkadapterconfigW
[] =
55 {'W','i','n','3','2','_','N','e','t','w','o','r','k','A','d','a','p','t','e','r',
56 'C','o','n','f','i','g','u','r','a','t','i','o','n',0};
57 static const WCHAR class_osW
[] =
58 {'W','i','n','3','2','_','O','p','e','r','a','t','i','n','g','S','y','s','t','e','m',0};
59 static const WCHAR class_paramsW
[] =
60 {'_','_','P','A','R','A','M','E','T','E','R','S',0};
61 static const WCHAR class_physicalmediaW
[] =
62 {'W','i','n','3','2','_','P','h','y','s','i','c','a','l','M','e','d','i','a',0};
63 static const WCHAR class_physicalmemoryW
[] =
64 {'W','i','n','3','2','_','P','h','y','s','i','c','a','l','M','e','m','o','r','y',0};
65 static const WCHAR class_qualifiersW
[] =
66 {'_','_','Q','U','A','L','I','F','I','E','R','S',0};
67 static const WCHAR class_process_getowner_outW
[] =
68 {'_','_','W','I','N','3','2','_','P','R','O','C','E','S','S','_','G','E','T','O','W',
69 'N','E','R','_','O','U','T',0};
70 static const WCHAR class_processorW
[] =
71 {'W','i','n','3','2','_','P','r','o','c','e','s','s','o','r',0};
72 static const WCHAR class_sounddeviceW
[] =
73 {'W','i','n','3','2','_','S','o','u','n','d','D','e','v','i','c','e',0};
74 static const WCHAR class_videocontrollerW
[] =
75 {'W','i','n','3','2','_','V','i','d','e','o','C','o','n','t','r','o','l','l','e','r',0};
77 static const WCHAR prop_acceptpauseW
[] =
78 {'A','c','c','e','p','t','P','a','u','s','e',0};
79 static const WCHAR prop_acceptstopW
[] =
80 {'A','c','c','e','p','t','S','t','o','p',0};
81 static const WCHAR prop_accessmaskW
[] =
82 {'A','c','c','e','s','s','M','a','s','k',0};
83 static const WCHAR prop_adapterdactypeW
[] =
84 {'A','d','a','p','t','e','r','D','A','C','T','y','p','e',0};
85 static const WCHAR prop_adapterramW
[] =
86 {'A','d','a','p','t','e','r','R','A','M',0};
87 static const WCHAR prop_adaptertypeW
[] =
88 {'A','d','a','p','t','e','r','T','y','p','e',0};
89 static const WCHAR prop_addresswidthW
[] =
90 {'A','d','d','r','e','s','s','W','i','d','t','h',0};
91 static const WCHAR prop_availabilityW
[] =
92 {'A','v','a','i','l','a','b','i','l','i','t','y',0};
93 static const WCHAR prop_bootableW
[] =
94 {'B','o','o','t','a','b','l','e',0};
95 static const WCHAR prop_bootpartitionW
[] =
96 {'B','o','o','t','P','a','r','t','i','t','i','o','n',0};
97 static const WCHAR prop_buildnumberW
[] =
98 {'B','u','i','l','d','N','u','m','b','e','r',0};
99 static const WCHAR prop_capacityW
[] =
100 {'C','a','p','a','c','i','t','y',0};
101 static const WCHAR prop_captionW
[] =
102 {'C','a','p','t','i','o','n',0};
103 static const WCHAR prop_classW
[] =
104 {'C','l','a','s','s',0};
105 static const WCHAR prop_codesetW
[] =
106 {'C','o','d','e','S','e','t',0};
107 static const WCHAR prop_commandlineW
[] =
108 {'C','o','m','m','a','n','d','L','i','n','e',0};
109 static const WCHAR prop_countrycodeW
[] =
110 {'C','o','u','n','t','r','y','C','o','d','e',0};
111 static const WCHAR prop_cpustatusW
[] =
112 {'C','p','u','S','t','a','t','u','s',0};
113 static const WCHAR prop_csdversionW
[] =
114 {'C','S','D','V','e','r','s','i','o','n',0};
115 static const WCHAR prop_currentbitsperpixelW
[] =
116 {'C','u','r','r','e','n','t','B','i','t','s','P','e','r','P','i','x','e','l',0};
117 static const WCHAR prop_currenthorizontalresW
[] =
118 {'C','u','r','r','e','n','t','H','o','r','i','z','o','n','t','a','l','R','e','s','o','l','u','t','i','o','n',0};
119 static const WCHAR prop_currentverticalresW
[] =
120 {'C','u','r','r','e','n','t','V','e','r','t','i','c','a','l','R','e','s','o','l','u','t','i','o','n',0};
121 static const WCHAR prop_defaultvalueW
[] =
122 {'D','e','f','a','u','l','t','V','a','l','u','e',0};
123 static const WCHAR prop_descriptionW
[] =
124 {'D','e','s','c','r','i','p','t','i','o','n',0};
125 static const WCHAR prop_deviceidW
[] =
126 {'D','e','v','i','c','e','I','d',0};
127 static const WCHAR prop_directionW
[] =
128 {'D','i','r','e','c','t','i','o','n',0};
129 static const WCHAR prop_displaynameW
[] =
130 {'D','i','s','p','l','a','y','N','a','m','e',0};
131 static const WCHAR prop_diskindexW
[] =
132 {'D','i','s','k','I','n','d','e','x',0};
133 static const WCHAR prop_domainW
[] =
134 {'D','o','m','a','i','n',0};
135 static const WCHAR prop_domainroleW
[] =
136 {'D','o','m','a','i','n','R','o','l','e',0};
137 static const WCHAR prop_driveW
[] =
138 {'D','r','i','v','e',0};
139 static const WCHAR prop_drivetypeW
[] =
140 {'D','r','i','v','e','T','y','p','e',0};
141 static const WCHAR prop_familyW
[] =
142 {'F','a','m','i','l','y',0};
143 static const WCHAR prop_filesystemW
[] =
144 {'F','i','l','e','S','y','s','t','e','m',0};
145 static const WCHAR prop_flavorW
[] =
146 {'F','l','a','v','o','r',0};
147 static const WCHAR prop_freespaceW
[] =
148 {'F','r','e','e','S','p','a','c','e',0};
149 static const WCHAR prop_handleW
[] =
150 {'H','a','n','d','l','e',0};
151 static const WCHAR prop_idW
[] =
153 static const WCHAR prop_identificationcodeW
[] =
154 {'I','d','e','n','t','i','f','i','c','a','t','i','o','n','C','o','d','e',0};
155 static const WCHAR prop_indexW
[] =
156 {'I','n','d','e','x',0};
157 static const WCHAR prop_installdateW
[] =
158 {'I','n','s','t','a','l','l','D','a','t','e',0};
159 static const WCHAR prop_interfaceindexW
[] =
160 {'I','n','t','e','r','f','a','c','e','I','n','d','e','x',0};
161 static const WCHAR prop_interfacetypeW
[] =
162 {'I','n','t','e','r','f','a','c','e','T','y','p','e',0};
163 static const WCHAR prop_intvalueW
[] =
164 {'I','n','t','e','g','e','r','V','a','l','u','e',0};
165 static const WCHAR prop_ipconnectionmetricW
[] =
166 {'I','P','C','o','n','n','e','c','t','i','o','n','M','e','t','r','i','c',0};
167 static const WCHAR prop_ipenabledW
[] =
168 {'I','P','E','n','a','b','l','e','d',0};
169 static const WCHAR prop_lastbootuptimeW
[] =
170 {'L','a','s','t','B','o','o','t','U','p','T','i','m','e',0};
171 static const WCHAR prop_localdatetimeW
[] =
172 {'L','o','c','a','l','D','a','t','e','T','i','m','e',0};
173 static const WCHAR prop_localeW
[] =
174 {'L','o','c','a','l','e',0};
175 static const WCHAR prop_macaddressW
[] =
176 {'M','A','C','A','d','d','r','e','s','s',0};
177 static const WCHAR prop_manufacturerW
[] =
178 {'M','a','n','u','f','a','c','t','u','r','e','r',0};
179 static const WCHAR prop_maxclockspeedW
[] =
180 {'M','a','x','C','l','o','c','k','S','p','e','e','d',0};
181 static const WCHAR prop_mediatypeW
[] =
182 {'M','e','d','i','a','T','y','p','e',0};
183 static const WCHAR prop_memberW
[] =
184 {'M','e','m','b','e','r',0};
185 static const WCHAR prop_methodW
[] =
186 {'M','e','t','h','o','d',0};
187 static const WCHAR prop_modelW
[] =
188 {'M','o','d','e','l',0};
189 static const WCHAR prop_netconnectionstatusW
[] =
190 {'N','e','t','C','o','n','n','e','c','t','i','o','n','S','t','a','t','u','s',0};
191 static const WCHAR prop_numcoresW
[] =
192 {'N','u','m','b','e','r','O','f','C','o','r','e','s',0};
193 static const WCHAR prop_numlogicalprocessorsW
[] =
194 {'N','u','m','b','e','r','O','f','L','o','g','i','c','a','l','P','r','o','c','e','s','s','o','r','s',0};
195 static const WCHAR prop_numprocessorsW
[] =
196 {'N','u','m','b','e','r','O','f','P','r','o','c','e','s','s','o','r','s',0};
197 static const WCHAR prop_osarchitectureW
[] =
198 {'O','S','A','r','c','h','i','t','e','c','t','u','r','e',0};
199 static const WCHAR prop_oslanguageW
[] =
200 {'O','S','L','a','n','g','u','a','g','e',0};
201 static const WCHAR prop_osproductsuiteW
[] =
202 {'O','S','P','r','o','d','u','c','t','S','u','i','t','e',0};
203 static const WCHAR prop_ostypeW
[] =
204 {'O','S','T','y','p','e',0};
205 static const WCHAR prop_parameterW
[] =
206 {'P','a','r','a','m','e','t','e','r',0};
207 static const WCHAR prop_physicaladapterW
[] =
208 {'P','h','y','s','i','c','a','l','A','d','a','p','t','e','r',0};
209 static const WCHAR prop_pnpdeviceidW
[] =
210 {'P','N','P','D','e','v','i','c','e','I','D',0};
211 static const WCHAR prop_pprocessidW
[] =
212 {'P','a','r','e','n','t','P','r','o','c','e','s','s','I','D',0};
213 static const WCHAR prop_processidW
[] =
214 {'P','r','o','c','e','s','s','I','D',0};
215 static const WCHAR prop_processoridW
[] =
216 {'P','r','o','c','e','s','s','o','r','I','d',0};
217 static const WCHAR prop_productnameW
[] =
218 {'P','r','o','d','u','c','t','N','a','m','e',0};
219 static const WCHAR prop_releasedateW
[] =
220 {'R','e','l','e','a','s','e','D','a','t','e',0};
221 static const WCHAR prop_serialnumberW
[] =
222 {'S','e','r','i','a','l','N','u','m','b','e','r',0};
223 static const WCHAR prop_servicepackmajorW
[] =
224 {'S','e','r','v','i','c','e','P','a','c','k','M','a','j','o','r','V','e','r','s','i','o','n',0};
225 static const WCHAR prop_servicepackminorW
[] =
226 {'S','e','r','v','i','c','e','P','a','c','k','M','i','n','o','r','V','e','r','s','i','o','n',0};
227 static const WCHAR prop_servicetypeW
[] =
228 {'S','e','r','v','i','c','e','T','y','p','e',0};
229 static const WCHAR prop_smbiosbiosversionW
[] =
230 {'S','M','B','I','O','S','B','I','O','S','V','e','r','s','i','o','n',0};
231 static const WCHAR prop_startmodeW
[] =
232 {'S','t','a','r','t','M','o','d','e',0};
233 static const WCHAR prop_sizeW
[] =
235 static const WCHAR prop_speedW
[] =
236 {'S','p','e','e','d',0};
237 static const WCHAR prop_startingoffsetW
[] =
238 {'S','t','a','r','t','i','n','g','O','f','f','s','e','t',0};
239 static const WCHAR prop_stateW
[] =
240 {'S','t','a','t','e',0};
241 static const WCHAR prop_strvalueW
[] =
242 {'S','t','r','i','n','g','V','a','l','u','e',0};
243 static const WCHAR prop_suitemaskW
[] =
244 {'S','u','i','t','e','M','a','s','k',0};
245 static const WCHAR prop_systemdirectoryW
[] =
246 {'S','y','s','t','e','m','D','i','r','e','c','t','o','r','y',0};
247 static const WCHAR prop_systemnameW
[] =
248 {'S','y','s','t','e','m','N','a','m','e',0};
249 static const WCHAR prop_tagW
[] =
251 static const WCHAR prop_threadcountW
[] =
252 {'T','h','r','e','a','d','C','o','u','n','t',0};
253 static const WCHAR prop_totalphysicalmemoryW
[] =
254 {'T','o','t','a','l','P','h','y','s','i','c','a','l','M','e','m','o','r','y',0};
255 static const WCHAR prop_typeW
[] =
257 static const WCHAR prop_uniqueidW
[] =
258 {'U','n','i','q','u','e','I','d',0};
259 static const WCHAR prop_varianttypeW
[] =
260 {'V','a','r','i','a','n','t','T','y','p','e',0};
261 static const WCHAR prop_versionW
[] =
262 {'V','e','r','s','i','o','n',0};
263 static const WCHAR prop_volumeserialnumberW
[] =
264 {'V','o','l','u','m','e','S','e','r','i','a','l','N','u','m','b','e','r',0};
266 /* column definitions must be kept in sync with record structures below */
267 static const struct column col_baseboard
[] =
269 { prop_manufacturerW
, CIM_STRING
},
270 { prop_modelW
, CIM_STRING
},
271 { prop_nameW
, CIM_STRING
},
272 { prop_serialnumberW
, CIM_STRING
},
273 { prop_tagW
, CIM_STRING
|COL_FLAG_KEY
}
275 static const struct column col_bios
[] =
277 { prop_descriptionW
, CIM_STRING
},
278 { prop_identificationcodeW
, CIM_STRING
},
279 { prop_manufacturerW
, CIM_STRING
},
280 { prop_releasedateW
, CIM_DATETIME
},
281 { prop_serialnumberW
, CIM_STRING
},
282 { prop_smbiosbiosversionW
, CIM_STRING
},
283 { prop_versionW
, CIM_STRING
|COL_FLAG_KEY
}
285 static const struct column col_cdromdrive
[] =
287 { prop_deviceidW
, CIM_STRING
|COL_FLAG_KEY
},
288 { prop_driveW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
289 { prop_mediatypeW
, CIM_STRING
},
290 { prop_nameW
, CIM_STRING
},
291 { prop_pnpdeviceidW
, CIM_STRING
}
293 static const struct column col_compsys
[] =
295 { prop_descriptionW
, CIM_STRING
},
296 { prop_domainW
, CIM_STRING
},
297 { prop_domainroleW
, CIM_UINT16
},
298 { prop_manufacturerW
, CIM_STRING
},
299 { prop_modelW
, CIM_STRING
},
300 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
301 { prop_numlogicalprocessorsW
, CIM_UINT32
, VT_I4
},
302 { prop_numprocessorsW
, CIM_UINT32
, VT_I4
},
303 { prop_totalphysicalmemoryW
, CIM_UINT64
}
305 static const struct column col_datafile
[] =
307 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
308 { prop_versionW
, CIM_STRING
|COL_FLAG_DYNAMIC
}
310 static const struct column col_directory
[] =
312 { prop_accessmaskW
, CIM_UINT32
},
313 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
}
315 static const struct column col_diskdrive
[] =
317 { prop_deviceidW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
318 { prop_indexW
, CIM_UINT32
, VT_I4
},
319 { prop_interfacetypeW
, CIM_STRING
},
320 { prop_manufacturerW
, CIM_STRING
},
321 { prop_mediatypeW
, CIM_STRING
},
322 { prop_modelW
, CIM_STRING
},
323 { prop_serialnumberW
, CIM_STRING
},
324 { prop_sizeW
, CIM_UINT64
}
326 static const struct column col_diskpartition
[] =
328 { prop_bootableW
, CIM_BOOLEAN
},
329 { prop_bootpartitionW
, CIM_BOOLEAN
},
330 { prop_deviceidW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
331 { prop_diskindexW
, CIM_UINT32
, VT_I4
},
332 { prop_indexW
, CIM_UINT32
, VT_I4
},
333 { prop_pnpdeviceidW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
334 { prop_sizeW
, CIM_UINT64
},
335 { prop_startingoffsetW
, CIM_UINT64
},
336 { prop_typeW
, CIM_STRING
|COL_FLAG_DYNAMIC
}
338 static const struct column col_logicaldisk
[] =
340 { prop_deviceidW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
341 { prop_drivetypeW
, CIM_UINT32
, VT_I4
},
342 { prop_filesystemW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
343 { prop_freespaceW
, CIM_UINT64
},
344 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
345 { prop_sizeW
, CIM_UINT64
},
346 { prop_volumeserialnumberW
, CIM_STRING
|COL_FLAG_DYNAMIC
}
348 static const struct column col_networkadapter
[] =
350 { prop_adaptertypeW
, CIM_STRING
},
351 { prop_deviceidW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
352 { prop_indexW
, CIM_UINT32
, VT_I4
},
353 { prop_interfaceindexW
, CIM_UINT32
, VT_I4
},
354 { prop_macaddressW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
355 { prop_manufacturerW
, CIM_STRING
},
356 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
357 { prop_netconnectionstatusW
, CIM_UINT16
, VT_I4
},
358 { prop_physicaladapterW
, CIM_BOOLEAN
},
359 { prop_pnpdeviceidW
, CIM_STRING
},
360 { prop_speedW
, CIM_UINT64
}
362 static const struct column col_networkadapterconfig
[] =
364 { prop_indexW
, CIM_UINT32
|COL_FLAG_KEY
},
365 { prop_ipconnectionmetricW
, CIM_UINT32
},
366 { prop_ipenabledW
, CIM_BOOLEAN
},
367 { prop_macaddressW
, CIM_STRING
|COL_FLAG_DYNAMIC
}
369 static const struct column col_os
[] =
371 { prop_buildnumberW
, CIM_STRING
},
372 { prop_captionW
, CIM_STRING
},
373 { prop_codesetW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
374 { prop_countrycodeW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
375 { prop_csdversionW
, CIM_STRING
},
376 { prop_installdateW
, CIM_DATETIME
},
377 { prop_lastbootuptimeW
, CIM_DATETIME
|COL_FLAG_DYNAMIC
},
378 { prop_localdatetimeW
, CIM_DATETIME
|COL_FLAG_DYNAMIC
},
379 { prop_localeW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
380 { prop_nameW
, CIM_STRING
},
381 { prop_osarchitectureW
, CIM_STRING
},
382 { prop_oslanguageW
, CIM_UINT32
, VT_I4
},
383 { prop_osproductsuiteW
, CIM_UINT32
, VT_I4
},
384 { prop_ostypeW
, CIM_UINT16
, VT_I4
},
385 { prop_serialnumberW
, CIM_STRING
},
386 { prop_servicepackmajorW
, CIM_UINT16
, VT_I4
},
387 { prop_servicepackminorW
, CIM_UINT16
, VT_I4
},
388 { prop_suitemaskW
, CIM_UINT32
, VT_I4
},
389 { prop_systemdirectoryW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
390 { prop_versionW
, CIM_STRING
}
392 static const struct column col_param
[] =
394 { prop_classW
, CIM_STRING
},
395 { prop_methodW
, CIM_STRING
},
396 { prop_directionW
, CIM_SINT32
},
397 { prop_parameterW
, CIM_STRING
},
398 { prop_typeW
, CIM_UINT32
},
399 { prop_varianttypeW
, CIM_UINT32
},
400 { prop_defaultvalueW
, CIM_UINT32
}
402 static const struct column col_physicalmedia
[] =
404 { prop_serialnumberW
, CIM_STRING
},
405 { prop_tagW
, CIM_STRING
}
407 static const struct column col_physicalmemory
[] =
409 { prop_capacityW
, CIM_UINT64
}
411 static const struct column col_process
[] =
413 { prop_captionW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
414 { prop_commandlineW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
415 { prop_descriptionW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
416 { prop_handleW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
417 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
418 { prop_pprocessidW
, CIM_UINT32
, VT_I4
},
419 { prop_processidW
, CIM_UINT32
, VT_I4
},
420 { prop_threadcountW
, CIM_UINT32
, VT_I4
},
422 { method_getownerW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
}
424 static const struct column col_processor
[] =
426 { prop_addresswidthW
, CIM_UINT16
, VT_I4
},
427 { prop_cpustatusW
, CIM_UINT16
},
428 { prop_deviceidW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
429 { prop_familyW
, CIM_UINT16
, VT_I4
},
430 { prop_manufacturerW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
431 { prop_maxclockspeedW
, CIM_UINT32
, VT_I4
},
432 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
433 { prop_numcoresW
, CIM_UINT32
, VT_I4
},
434 { prop_numlogicalprocessorsW
, CIM_UINT32
, VT_I4
},
435 { prop_processoridW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
436 { prop_uniqueidW
, CIM_STRING
}
438 static const struct column col_qualifier
[] =
440 { prop_classW
, CIM_STRING
},
441 { prop_memberW
, CIM_STRING
},
442 { prop_typeW
, CIM_UINT32
},
443 { prop_flavorW
, CIM_SINT32
},
444 { prop_nameW
, CIM_STRING
},
445 { prop_intvalueW
, CIM_SINT32
},
446 { prop_strvalueW
, CIM_STRING
}
448 static const struct column col_service
[] =
450 { prop_acceptpauseW
, CIM_BOOLEAN
},
451 { prop_acceptstopW
, CIM_BOOLEAN
},
452 { prop_displaynameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
453 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
|COL_FLAG_KEY
},
454 { prop_processidW
, CIM_UINT32
},
455 { prop_servicetypeW
, CIM_STRING
},
456 { prop_startmodeW
, CIM_STRING
},
457 { prop_stateW
, CIM_STRING
},
458 { prop_systemnameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
460 { method_pauseserviceW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
},
461 { method_resumeserviceW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
},
462 { method_startserviceW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
},
463 { method_stopserviceW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
}
465 static const struct column col_sounddevice
[] =
467 { prop_nameW
, CIM_STRING
},
468 { prop_productnameW
, CIM_STRING
}
470 static const struct column col_stdregprov
[] =
472 { method_enumkeyW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
},
473 { method_enumvaluesW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
},
474 { method_getstringvalueW
, CIM_FLAG_ARRAY
|COL_FLAG_METHOD
}
476 static const struct column col_videocontroller
[] =
478 { prop_adapterdactypeW
, CIM_STRING
},
479 { prop_adapterramW
, CIM_UINT32
, VT_I4
},
480 { prop_availabilityW
, CIM_UINT16
},
481 { prop_currentbitsperpixelW
, CIM_UINT32
},
482 { prop_currenthorizontalresW
, CIM_UINT32
},
483 { prop_currentverticalresW
, CIM_UINT32
},
484 { prop_descriptionW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
485 { prop_deviceidW
, CIM_STRING
|COL_FLAG_KEY
},
486 { prop_nameW
, CIM_STRING
|COL_FLAG_DYNAMIC
},
487 { prop_pnpdeviceidW
, CIM_STRING
|COL_FLAG_DYNAMIC
}
490 static const WCHAR baseboard_manufacturerW
[] =
491 {'I','n','t','e','l',' ','C','o','r','p','o','r','a','t','i','o','n',0};
492 static const WCHAR baseboard_serialnumberW
[] =
494 static const WCHAR baseboard_tagW
[] =
495 {'B','a','s','e',' ','B','o','a','r','d',0};
496 static const WCHAR bios_descriptionW
[] =
497 {'D','e','f','a','u','l','t',' ','S','y','s','t','e','m',' ','B','I','O','S',0};
498 static const WCHAR bios_manufacturerW
[] =
499 {'T','h','e',' ','W','i','n','e',' ','P','r','o','j','e','c','t',0};
500 static const WCHAR bios_releasedateW
[] =
501 {'2','0','1','2','0','6','0','8','0','0','0','0','0','0','.','0','0','0','0','0','0','+','0','0','0',0};
502 static const WCHAR bios_serialnumberW
[] =
504 static const WCHAR bios_smbiosbiosversionW
[] =
506 static const WCHAR bios_versionW
[] =
507 {'W','I','N','E',' ',' ',' ','-',' ','1',0};
508 static const WCHAR cdromdrive_mediatypeW
[] =
509 {'C','D','-','R','O','M',0};
510 static const WCHAR cdromdrive_nameW
[] =
511 {'W','i','n','e',' ','C','D','-','R','O','M',' ','A','T','A',' ','D','e','v','i','c','e',0};
512 static const WCHAR cdromdrive_pnpdeviceidW
[]=
513 {'I','D','E','\\','C','D','R','O','M','W','I','N','E','_','C','D','-','R','O','M',
514 '_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_',
515 '_','_','_','_','_','_','_','1','.','0','_','_','_','_','_','\\','5','&','3','A','2',
516 'A','5','8','5','4','&','0','&','1','.','0','.','0',0};
517 static const WCHAR compsys_descriptionW
[] =
518 {'A','T','/','A','T',' ','C','O','M','P','A','T','I','B','L','E',0};
519 static const WCHAR compsys_domainW
[] =
520 {'W','O','R','K','G','R','O','U','P',0};
521 static const WCHAR compsys_manufacturerW
[] =
522 {'T','h','e',' ','W','i','n','e',' ','P','r','o','j','e','c','t',0};
523 static const WCHAR compsys_modelW
[] =
525 static const WCHAR diskdrive_interfacetypeW
[] =
527 static const WCHAR diskdrive_manufacturerW
[] =
528 {'(','S','t','a','n','d','a','r','d',' ','d','i','s','k',' ','d','r','i','v','e','s',')',0};
529 static const WCHAR diskdrive_mediatype_fixedW
[] =
530 {'F','i','x','e','d',' ','h','a','r','d',' ','d','i','s','k',0};
531 static const WCHAR diskdrive_mediatype_removableW
[] =
532 {'R','e','m','o','v','a','b','l','e',' ','m','e','d','i','a',0};
533 static const WCHAR diskdrive_modelW
[] =
534 {'W','i','n','e',' ','D','i','s','k',' ','D','r','i','v','e',0};
535 static const WCHAR diskdrive_serialW
[] =
536 {'W','I','N','E','H','D','I','S','K',0};
537 static const WCHAR networkadapter_pnpdeviceidW
[]=
538 {'P','C','I','\\','V','E','N','_','8','0','8','6','&','D','E','V','_','1','0','0','E','&',
539 'S','U','B','S','Y','S','_','0','0','1','E','8','0','8','6','&','R','E','V','_','0','2','\\',
540 '3','&','2','6','7','A','6','1','6','A','&','1','&','1','8',0};
541 static const WCHAR os_32bitW
[] =
542 {'3','2','-','b','i','t',0};
543 static const WCHAR os_64bitW
[] =
544 {'6','4','-','b','i','t',0};
545 static const WCHAR os_buildnumberW
[] =
547 static const WCHAR os_captionW
[] =
548 {'M','i','c','r','o','s','o','f','t',' ','W','i','n','d','o','w','s',' ','X','P',' ',
549 'V','e','r','s','i','o','n',' ','=',' ','5','.','1','.','2','6','0','0',0};
550 static const WCHAR os_csdversionW
[] =
551 {'S','e','r','v','i','c','e',' ','P','a','c','k',' ','3',0};
552 static const WCHAR os_installdateW
[] =
553 {'2','0','1','4','0','1','0','1','0','0','0','0','0','0','.','0','0','0','0','0','0','+','0','0','0',0};
554 static const WCHAR os_nameW
[] =
555 {'M','i','c','r','o','s','o','f','t',' ','W','i','n','d','o','w','s',' ','X','P',' ',
556 'P','r','o','f','e','s','s','i','o','n','a','l','|','C',':','\\','W','I','N','D','O','W','S',
557 '|','\\','D','e','v','i','c','e','\\','H','a','r','d','d','i','s','k','0',
558 '\\','P','a','r','t','i','t','i','o','n','1',0};
559 static const WCHAR os_serialnumberW
[] =
560 {'1','2','3','4','5','-','O','E','M','-','1','2','3','4','5','6','7','-','1','2','3','4','5',0};
561 static const WCHAR os_versionW
[] =
562 {'5','.','1','.','2','6','0','0',0};
563 static const WCHAR physicalmedia_tagW
[] =
564 {'\\','\\','.','\\','P','H','Y','S','I','C','A','L','D','R','I','V','E','0',0};
565 static const WCHAR sounddevice_productnameW
[] =
566 {'W','i','n','e',' ','A','u','d','i','o',' ','D','e','v','i','c','e',0};
567 static const WCHAR videocontroller_dactypeW
[] =
568 {'I','n','t','e','g','r','a','t','e','d',' ','R','A','M','D','A','C',0};
569 static const WCHAR videocontroller_deviceidW
[] =
570 {'V','i','d','e','o','C','o','n','t','r','o','l','l','e','r','1',0};
572 #include "pshpack1.h"
573 struct record_baseboard
575 const WCHAR
*manufacturer
;
578 const WCHAR
*serialnumber
;
583 const WCHAR
*description
;
584 const WCHAR
*identificationcode
;
585 const WCHAR
*manufacturer
;
586 const WCHAR
*releasedate
;
587 const WCHAR
*serialnumber
;
588 const WCHAR
*smbiosbiosversion
;
589 const WCHAR
*version
;
591 struct record_cdromdrive
593 const WCHAR
*device_id
;
595 const WCHAR
*mediatype
;
597 const WCHAR
*pnpdevice_id
;
599 struct record_computersystem
601 const WCHAR
*description
;
604 const WCHAR
*manufacturer
;
607 UINT32 num_logical_processors
;
608 UINT32 num_processors
;
609 UINT64 total_physical_memory
;
611 struct record_datafile
614 const WCHAR
*version
;
616 struct record_directory
621 struct record_diskdrive
623 const WCHAR
*device_id
;
625 const WCHAR
*interfacetype
;
626 const WCHAR
*manufacturer
;
627 const WCHAR
*mediatype
;
629 const WCHAR
*serialnumber
;
632 struct record_diskpartition
636 const WCHAR
*device_id
;
639 const WCHAR
*pnpdevice_id
;
641 UINT64 startingoffset
;
644 struct record_logicaldisk
646 const WCHAR
*device_id
;
648 const WCHAR
*filesystem
;
652 const WCHAR
*volumeserialnumber
;
654 struct record_networkadapter
656 const WCHAR
*adaptertype
;
657 const WCHAR
*device_id
;
659 UINT32 interface_index
;
660 const WCHAR
*mac_address
;
661 const WCHAR
*manufacturer
;
663 UINT16 netconnection_status
;
665 const WCHAR
*pnpdevice_id
;
668 struct record_networkadapterconfig
671 UINT32 ipconnectionmetric
;
673 const WCHAR
*mac_address
;
675 struct record_operatingsystem
677 const WCHAR
*buildnumber
;
678 const WCHAR
*caption
;
679 const WCHAR
*codeset
;
680 const WCHAR
*countrycode
;
681 const WCHAR
*csdversion
;
682 const WCHAR
*installdate
;
683 const WCHAR
*lastbootuptime
;
684 const WCHAR
*localdatetime
;
687 const WCHAR
*osarchitecture
;
689 UINT32 osproductsuite
;
691 const WCHAR
*serialnumber
;
692 UINT16 servicepackmajor
;
693 UINT16 servicepackminor
;
695 const WCHAR
*systemdirectory
;
696 const WCHAR
*version
;
703 const WCHAR
*parameter
;
708 struct record_physicalmedia
710 const WCHAR
*serialnumber
;
713 struct record_physicalmemory
717 struct record_process
719 const WCHAR
*caption
;
720 const WCHAR
*commandline
;
721 const WCHAR
*description
;
728 class_method
*get_owner
;
730 struct record_processor
734 const WCHAR
*device_id
;
736 const WCHAR
*manufacturer
;
737 UINT32 maxclockspeed
;
740 UINT32 num_logical_processors
;
741 const WCHAR
*processor_id
;
742 const WCHAR
*unique_id
;
744 struct record_qualifier
752 const WCHAR
*strvalue
;
754 struct record_service
758 const WCHAR
*displayname
;
761 const WCHAR
*servicetype
;
762 const WCHAR
*startmode
;
764 const WCHAR
*systemname
;
766 class_method
*pause_service
;
767 class_method
*resume_service
;
768 class_method
*start_service
;
769 class_method
*stop_service
;
771 struct record_sounddevice
774 const WCHAR
*productname
;
776 struct record_stdregprov
778 class_method
*enumkey
;
779 class_method
*enumvalues
;
780 class_method
*getstringvalue
;
782 struct record_videocontroller
784 const WCHAR
*adapter_dactype
;
787 UINT32 current_bitsperpixel
;
788 UINT32 current_horizontalres
;
789 UINT32 current_verticalres
;
790 const WCHAR
*description
;
791 const WCHAR
*device_id
;
793 const WCHAR
*pnpdevice_id
;
797 static const struct record_baseboard data_baseboard
[] =
799 { baseboard_manufacturerW
, baseboard_tagW
, baseboard_tagW
, baseboard_serialnumberW
, baseboard_tagW
}
801 static const struct record_bios data_bios
[] =
803 { bios_descriptionW
, bios_descriptionW
, bios_manufacturerW
, bios_releasedateW
, bios_serialnumberW
,
804 bios_smbiosbiosversionW
, bios_versionW
}
806 static const struct record_param data_param
[] =
808 { class_processW
, method_getownerW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
809 { class_processW
, method_getownerW
, -1, param_userW
, CIM_STRING
},
810 { class_processW
, method_getownerW
, -1, param_domainW
, CIM_STRING
},
811 { class_serviceW
, method_pauseserviceW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
812 { class_serviceW
, method_resumeserviceW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
813 { class_serviceW
, method_startserviceW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
814 { class_serviceW
, method_stopserviceW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
815 { class_stdregprovW
, method_enumkeyW
, 1, param_defkeyW
, CIM_SINT32
, 0, 0x80000002 },
816 { class_stdregprovW
, method_enumkeyW
, 1, param_subkeynameW
, CIM_STRING
},
817 { class_stdregprovW
, method_enumkeyW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
818 { class_stdregprovW
, method_enumkeyW
, -1, param_namesW
, CIM_STRING
|CIM_FLAG_ARRAY
},
819 { class_stdregprovW
, method_enumvaluesW
, 1, param_defkeyW
, CIM_SINT32
, 0, 0x80000002 },
820 { class_stdregprovW
, method_enumvaluesW
, 1, param_subkeynameW
, CIM_STRING
},
821 { class_stdregprovW
, method_enumvaluesW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
822 { class_stdregprovW
, method_enumvaluesW
, -1, param_namesW
, CIM_STRING
|CIM_FLAG_ARRAY
},
823 { class_stdregprovW
, method_enumvaluesW
, -1, param_typesW
, CIM_SINT32
|CIM_FLAG_ARRAY
},
824 { class_stdregprovW
, method_getstringvalueW
, 1, param_defkeyW
, CIM_SINT32
, 0, 0x80000002 },
825 { class_stdregprovW
, method_getstringvalueW
, 1, param_subkeynameW
, CIM_STRING
},
826 { class_stdregprovW
, method_getstringvalueW
, 1, param_valuenameW
, CIM_STRING
},
827 { class_stdregprovW
, method_getstringvalueW
, -1, param_returnvalueW
, CIM_UINT32
, VT_I4
},
828 { class_stdregprovW
, method_getstringvalueW
, -1, param_valueW
, CIM_STRING
}
831 #define FLAVOR_ID (WBEM_FLAVOR_FLAG_PROPAGATE_TO_INSTANCE | WBEM_FLAVOR_NOT_OVERRIDABLE |\
832 WBEM_FLAVOR_ORIGIN_PROPAGATED)
834 static const struct record_physicalmedia data_physicalmedia
[] =
836 { diskdrive_serialW
, physicalmedia_tagW
}
838 static const struct record_qualifier data_qualifier
[] =
840 { class_process_getowner_outW
, param_userW
, CIM_SINT32
, FLAVOR_ID
, prop_idW
, 0 },
841 { class_process_getowner_outW
, param_domainW
, CIM_SINT32
, FLAVOR_ID
, prop_idW
, 1 }
843 static const struct record_sounddevice data_sounddevice
[] =
845 { sounddevice_productnameW
, sounddevice_productnameW
}
847 static const struct record_stdregprov data_stdregprov
[] =
849 { reg_enum_key
, reg_enum_values
, reg_get_stringvalue
}
852 /* check if row matches condition and update status */
853 static BOOL
match_row( const struct table
*table
, UINT row
, const struct expr
*cond
, enum fill_status
*status
)
860 *status
= FILL_STATUS_UNFILTERED
;
863 if (eval_cond( table
, row
, cond
, &val
, &type
) != S_OK
)
865 *status
= FILL_STATUS_FAILED
;
868 *status
= FILL_STATUS_FILTERED
;
872 static BOOL
resize_table( struct table
*table
, UINT row_count
, UINT row_size
)
874 if (!table
->num_rows_allocated
)
876 if (!(table
->data
= heap_alloc( row_count
* row_size
))) return FALSE
;
877 table
->num_rows_allocated
= row_count
;
880 if (row_count
>= table
->num_rows_allocated
)
883 UINT count
= table
->num_rows_allocated
* 2;
884 if (!(data
= heap_realloc( table
->data
, count
* row_size
))) return FALSE
;
886 table
->num_rows_allocated
= count
;
891 static enum fill_status
fill_cdromdrive( struct table
*table
, const struct expr
*cond
)
893 static const WCHAR fmtW
[] = {'%','c',':',0};
894 WCHAR drive
[3], root
[] = {'A',':','\\',0};
895 struct record_cdromdrive
*rec
;
896 UINT i
, row
= 0, offset
= 0;
897 DWORD drives
= GetLogicalDrives();
898 enum fill_status status
= FILL_STATUS_UNFILTERED
;
900 if (!resize_table( table
, 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
902 for (i
= 0; i
< sizeof(drives
); i
++)
904 if (drives
& (1 << i
))
907 if (GetDriveTypeW( root
) != DRIVE_CDROM
)
910 if (!resize_table( table
, row
+ 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
912 rec
= (struct record_cdromdrive
*)(table
->data
+ offset
);
913 rec
->device_id
= cdromdrive_pnpdeviceidW
;
914 sprintfW( drive
, fmtW
, 'A' + i
);
915 rec
->drive
= heap_strdupW( drive
);
916 rec
->mediatype
= cdromdrive_mediatypeW
;
917 rec
->name
= cdromdrive_nameW
;
918 rec
->pnpdevice_id
= cdromdrive_pnpdeviceidW
;
919 if (!match_row( table
, row
, cond
, &status
))
921 free_row_values( table
, row
);
924 offset
+= sizeof(*rec
);
928 TRACE("created %u rows\n", row
);
929 table
->num_rows
= row
;
933 static UINT
get_processor_count(void)
935 SYSTEM_BASIC_INFORMATION info
;
937 if (NtQuerySystemInformation( SystemBasicInformation
, &info
, sizeof(info
), NULL
)) return 1;
938 return info
.NumberOfProcessors
;
941 static UINT
get_logical_processor_count( UINT
*num_cores
)
943 SYSTEM_LOGICAL_PROCESSOR_INFORMATION
*info
;
944 UINT i
, j
, count
= 0;
948 if (num_cores
) *num_cores
= get_processor_count();
949 status
= NtQuerySystemInformation( SystemLogicalProcessorInformation
, NULL
, 0, &len
);
950 if (status
!= STATUS_INFO_LENGTH_MISMATCH
) return get_processor_count();
952 if (!(info
= heap_alloc( len
))) return get_processor_count();
953 status
= NtQuerySystemInformation( SystemLogicalProcessorInformation
, info
, len
, &len
);
954 if (status
!= STATUS_SUCCESS
)
957 return get_processor_count();
959 if (num_cores
) *num_cores
= 0;
960 for (i
= 0; i
< len
/ sizeof(*info
); i
++)
962 if (info
[i
].Relationship
== RelationProcessorCore
)
964 for (j
= 0; j
< sizeof(ULONG_PTR
); j
++) if (info
[i
].ProcessorMask
& (1 << j
)) count
++;
966 else if (info
[i
].Relationship
== RelationProcessorPackage
&& num_cores
)
968 for (j
= 0; j
< sizeof(ULONG_PTR
); j
++) if (info
[i
].ProcessorMask
& (1 << j
)) (*num_cores
)++;
975 static UINT64
get_total_physical_memory(void)
977 MEMORYSTATUSEX status
;
979 status
.dwLength
= sizeof(status
);
980 if (!GlobalMemoryStatusEx( &status
)) return 1024 * 1024 * 1024;
981 return status
.ullTotalPhys
;
984 static WCHAR
*get_computername(void)
987 DWORD size
= MAX_COMPUTERNAME_LENGTH
;
989 if (!(ret
= heap_alloc( size
* sizeof(WCHAR
) ))) return NULL
;
990 GetComputerNameW( ret
, &size
);
994 static enum fill_status
fill_compsys( struct table
*table
, const struct expr
*cond
)
996 struct record_computersystem
*rec
;
997 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1000 if (!resize_table( table
, 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1002 rec
= (struct record_computersystem
*)table
->data
;
1003 rec
->description
= compsys_descriptionW
;
1004 rec
->domain
= compsys_domainW
;
1005 rec
->domainrole
= 0; /* standalone workstation */
1006 rec
->manufacturer
= compsys_manufacturerW
;
1007 rec
->model
= compsys_modelW
;
1008 rec
->name
= get_computername();
1009 rec
->num_logical_processors
= get_logical_processor_count( NULL
);
1010 rec
->num_processors
= get_processor_count();
1011 rec
->total_physical_memory
= get_total_physical_memory();
1012 if (!match_row( table
, row
, cond
, &status
)) free_row_values( table
, row
);
1015 TRACE("created %u rows\n", row
);
1016 table
->num_rows
= row
;
1028 static struct dirstack
*alloc_dirstack( UINT size
)
1030 struct dirstack
*dirstack
;
1032 if (!(dirstack
= heap_alloc( sizeof(*dirstack
) ))) return NULL
;
1033 if (!(dirstack
->dirs
= heap_alloc( sizeof(WCHAR
*) * size
)))
1035 heap_free( dirstack
);
1038 if (!(dirstack
->len_dirs
= heap_alloc( sizeof(UINT
) * size
)))
1040 heap_free( dirstack
->dirs
);
1041 heap_free( dirstack
);
1044 dirstack
->num_dirs
= 0;
1045 dirstack
->num_allocated
= size
;
1049 static void clear_dirstack( struct dirstack
*dirstack
)
1052 for (i
= 0; i
< dirstack
->num_dirs
; i
++) heap_free( dirstack
->dirs
[i
] );
1053 dirstack
->num_dirs
= 0;
1056 static void free_dirstack( struct dirstack
*dirstack
)
1058 clear_dirstack( dirstack
);
1059 heap_free( dirstack
->dirs
);
1060 heap_free( dirstack
->len_dirs
);
1061 heap_free( dirstack
);
1064 static BOOL
push_dir( struct dirstack
*dirstack
, WCHAR
*dir
, UINT len
)
1066 UINT size
, i
= dirstack
->num_dirs
;
1068 if (!dir
) return FALSE
;
1070 if (i
== dirstack
->num_allocated
)
1075 size
= dirstack
->num_allocated
* 2;
1076 if (!(tmp
= heap_realloc( dirstack
->dirs
, size
* sizeof(WCHAR
*) ))) return FALSE
;
1077 dirstack
->dirs
= tmp
;
1078 if (!(len_tmp
= heap_realloc( dirstack
->len_dirs
, size
* sizeof(UINT
) ))) return FALSE
;
1079 dirstack
->len_dirs
= len_tmp
;
1080 dirstack
->num_allocated
= size
;
1082 dirstack
->dirs
[i
] = dir
;
1083 dirstack
->len_dirs
[i
] = len
;
1084 dirstack
->num_dirs
++;
1088 static WCHAR
*pop_dir( struct dirstack
*dirstack
, UINT
*len
)
1090 if (!dirstack
->num_dirs
)
1095 dirstack
->num_dirs
--;
1096 *len
= dirstack
->len_dirs
[dirstack
->num_dirs
];
1097 return dirstack
->dirs
[dirstack
->num_dirs
];
1100 static const WCHAR
*peek_dir( struct dirstack
*dirstack
)
1102 if (!dirstack
->num_dirs
) return NULL
;
1103 return dirstack
->dirs
[dirstack
->num_dirs
- 1];
1106 static WCHAR
*build_glob( WCHAR drive
, const WCHAR
*path
, UINT len
)
1111 if (!(ret
= heap_alloc( (len
+ 6) * sizeof(WCHAR
) ))) return NULL
;
1117 memcpy( ret
+ i
, path
, len
* sizeof(WCHAR
) );
1126 static WCHAR
*build_name( WCHAR drive
, const WCHAR
*path
)
1128 UINT i
= 0, len
= 0;
1132 for (p
= path
; *p
; p
++)
1134 if (*p
== '\\') len
+= 2;
1137 if (!(ret
= heap_alloc( (len
+ 5) * sizeof(WCHAR
) ))) return NULL
;
1142 for (p
= path
; *p
; p
++)
1144 if (*p
!= '\\') ret
[i
++] = *p
;
1155 static WCHAR
*build_dirname( const WCHAR
*path
, UINT
*ret_len
)
1157 const WCHAR
*p
= path
, *start
;
1161 if (!isalphaW( p
[0] ) || p
[1] != ':' || p
[2] != '\\' || p
[3] != '\\' || !p
[4]) return NULL
;
1163 len
= strlenW( start
);
1164 p
= start
+ len
- 1;
1165 if (*p
== '\\') return NULL
;
1167 while (p
>= start
&& *p
!= '\\') { len
--; p
--; };
1168 while (p
>= start
&& *p
== '\\') { len
--; p
--; };
1170 if (!(ret
= heap_alloc( (len
+ 1) * sizeof(WCHAR
) ))) return NULL
;
1171 for (i
= 0, p
= start
; p
< start
+ len
; p
++)
1173 if (p
[0] == '\\' && p
[1] == '\\')
1185 static BOOL
seen_dir( struct dirstack
*dirstack
, const WCHAR
*path
)
1188 for (i
= 0; i
< dirstack
->num_dirs
; i
++) if (!strcmpW( dirstack
->dirs
[i
], path
)) return TRUE
;
1192 /* optimize queries of the form WHERE Name='...' [OR Name='...']* */
1193 static UINT
seed_dirs( struct dirstack
*dirstack
, const struct expr
*cond
, WCHAR root
, UINT
*count
)
1195 const struct expr
*left
, *right
;
1197 if (!cond
|| cond
->type
!= EXPR_COMPLEX
) return *count
= 0;
1199 left
= cond
->u
.expr
.left
;
1200 right
= cond
->u
.expr
.right
;
1201 if (cond
->u
.expr
.op
== OP_EQ
)
1205 const WCHAR
*str
= NULL
;
1207 if (left
->type
== EXPR_PROPVAL
&& right
->type
== EXPR_SVAL
&&
1208 !strcmpW( left
->u
.propval
->name
, prop_nameW
) &&
1209 toupperW( right
->u
.sval
[0] ) == toupperW( root
))
1211 str
= right
->u
.sval
;
1213 else if (left
->type
== EXPR_SVAL
&& right
->type
== EXPR_PROPVAL
&&
1214 !strcmpW( right
->u
.propval
->name
, prop_nameW
) &&
1215 toupperW( left
->u
.sval
[0] ) == toupperW( root
))
1219 if (str
&& (path
= build_dirname( str
, &len
)))
1221 if (seen_dir( dirstack
, path
))
1226 else if (push_dir( dirstack
, path
, len
)) return ++*count
;
1231 else if (cond
->u
.expr
.op
== OP_OR
)
1233 UINT left_count
= 0, right_count
= 0;
1235 if (!(seed_dirs( dirstack
, left
, root
, &left_count
))) return *count
= 0;
1236 if (!(seed_dirs( dirstack
, right
, root
, &right_count
))) return *count
= 0;
1237 return *count
+= left_count
+ right_count
;
1242 static WCHAR
*append_path( const WCHAR
*path
, const WCHAR
*segment
, UINT
*len
)
1244 UINT len_path
= 0, len_segment
= strlenW( segment
);
1248 if (path
) len_path
= strlenW( path
);
1249 if (!(ret
= heap_alloc( (len_path
+ len_segment
+ 2) * sizeof(WCHAR
) ))) return NULL
;
1250 if (path
&& len_path
)
1252 memcpy( ret
, path
, len_path
* sizeof(WCHAR
) );
1253 ret
[len_path
] = '\\';
1254 *len
+= len_path
+ 1;
1256 memcpy( ret
+ *len
, segment
, len_segment
* sizeof(WCHAR
) );
1257 *len
+= len_segment
;
1262 static WCHAR
*get_file_version( const WCHAR
*filename
)
1264 static const WCHAR slashW
[] = {'\\',0}, fmtW
[] = {'%','u','.','%','u','.','%','u','.','%','u',0};
1265 VS_FIXEDFILEINFO
*info
;
1270 if (!(ret
= heap_alloc( (4 * 5 + sizeof(fmtW
) / sizeof(fmtW
[0])) * sizeof(WCHAR
) ))) return NULL
;
1271 if (!(size
= GetFileVersionInfoSizeW( filename
, NULL
)) || !(block
= heap_alloc( size
)))
1276 if (!GetFileVersionInfoW( filename
, 0, size
, block
) ||
1277 !VerQueryValueW( block
, slashW
, (void **)&info
, &size
))
1283 sprintfW( ret
, fmtW
, info
->dwFileVersionMS
>> 16, info
->dwFileVersionMS
& 0xffff,
1284 info
->dwFileVersionLS
>> 16, info
->dwFileVersionLS
& 0xffff );
1289 static enum fill_status
fill_datafile( struct table
*table
, const struct expr
*cond
)
1291 static const WCHAR dotW
[] = {'.',0}, dotdotW
[] = {'.','.',0};
1292 struct record_datafile
*rec
;
1293 UINT i
, len
, row
= 0, offset
= 0, num_expected_rows
;
1294 WCHAR
*glob
= NULL
, *path
= NULL
, *new_path
, root
[] = {'A',':','\\',0};
1295 DWORD drives
= GetLogicalDrives();
1296 WIN32_FIND_DATAW data
;
1298 struct dirstack
*dirstack
;
1299 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1301 if (!resize_table( table
, 8, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1303 dirstack
= alloc_dirstack(2);
1305 for (i
= 0; i
< sizeof(drives
); i
++)
1307 if (!(drives
& (1 << i
))) continue;
1310 if (GetDriveTypeW( root
) != DRIVE_FIXED
) continue;
1312 num_expected_rows
= 0;
1313 if (!seed_dirs( dirstack
, cond
, root
[0], &num_expected_rows
)) clear_dirstack( dirstack
);
1317 path
= pop_dir( dirstack
, &len
);
1318 if (!(glob
= build_glob( root
[0], path
, len
)))
1320 status
= FILL_STATUS_FAILED
;
1323 if ((handle
= FindFirstFileW( glob
, &data
)) != INVALID_HANDLE_VALUE
)
1327 if (!resize_table( table
, row
+ 1, sizeof(*rec
) ))
1329 status
= FILL_STATUS_FAILED
;
1330 FindClose( handle
);
1333 if (!strcmpW( data
.cFileName
, dotW
) || !strcmpW( data
.cFileName
, dotdotW
)) continue;
1334 new_path
= append_path( path
, data
.cFileName
, &len
);
1336 if (data
.dwFileAttributes
& FILE_ATTRIBUTE_DIRECTORY
)
1338 if (push_dir( dirstack
, new_path
, len
)) continue;
1339 heap_free( new_path
);
1340 FindClose( handle
);
1341 status
= FILL_STATUS_FAILED
;
1344 rec
= (struct record_datafile
*)(table
->data
+ offset
);
1345 rec
->name
= build_name( root
[0], new_path
);
1346 rec
->version
= get_file_version( rec
->name
);
1347 if (!match_row( table
, row
, cond
, &status
))
1349 free_row_values( table
, row
);
1352 else if (num_expected_rows
&& row
== num_expected_rows
- 1)
1355 FindClose( handle
);
1356 status
= FILL_STATUS_FILTERED
;
1359 offset
+= sizeof(*rec
);
1362 while (FindNextFileW( handle
, &data
));
1363 FindClose( handle
);
1365 if (!peek_dir( dirstack
)) break;
1372 free_dirstack( dirstack
);
1376 TRACE("created %u rows\n", row
);
1377 table
->num_rows
= row
;
1381 static enum fill_status
fill_directory( struct table
*table
, const struct expr
*cond
)
1383 static const WCHAR dotW
[] = {'.',0}, dotdotW
[] = {'.','.',0};
1384 struct record_directory
*rec
;
1385 UINT i
, len
, row
= 0, offset
= 0, num_expected_rows
;
1386 WCHAR
*glob
= NULL
, *path
= NULL
, *new_path
, root
[] = {'A',':','\\',0};
1387 DWORD drives
= GetLogicalDrives();
1388 WIN32_FIND_DATAW data
;
1390 struct dirstack
*dirstack
;
1391 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1393 if (!resize_table( table
, 4, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1395 dirstack
= alloc_dirstack(2);
1397 for (i
= 0; i
< sizeof(drives
); i
++)
1399 if (!(drives
& (1 << i
))) continue;
1402 if (GetDriveTypeW( root
) != DRIVE_FIXED
) continue;
1404 num_expected_rows
= 0;
1405 if (!seed_dirs( dirstack
, cond
, root
[0], &num_expected_rows
)) clear_dirstack( dirstack
);
1409 path
= pop_dir( dirstack
, &len
);
1410 if (!(glob
= build_glob( root
[0], path
, len
)))
1412 status
= FILL_STATUS_FAILED
;
1415 if ((handle
= FindFirstFileW( glob
, &data
)) != INVALID_HANDLE_VALUE
)
1419 if (!resize_table( table
, row
+ 1, sizeof(*rec
) ))
1421 FindClose( handle
);
1422 status
= FILL_STATUS_FAILED
;
1425 if (!(data
.dwFileAttributes
& FILE_ATTRIBUTE_DIRECTORY
) ||
1426 !strcmpW( data
.cFileName
, dotW
) || !strcmpW( data
.cFileName
, dotdotW
))
1429 new_path
= append_path( path
, data
.cFileName
, &len
);
1430 if (!(push_dir( dirstack
, new_path
, len
)))
1432 heap_free( new_path
);
1433 FindClose( handle
);
1434 status
= FILL_STATUS_FAILED
;
1437 rec
= (struct record_directory
*)(table
->data
+ offset
);
1438 rec
->accessmask
= FILE_ALL_ACCESS
;
1439 rec
->name
= build_name( root
[0], new_path
);
1440 if (!match_row( table
, row
, cond
, &status
))
1442 free_row_values( table
, row
);
1445 else if (num_expected_rows
&& row
== num_expected_rows
- 1)
1448 FindClose( handle
);
1449 status
= FILL_STATUS_FILTERED
;
1452 offset
+= sizeof(*rec
);
1455 while (FindNextFileW( handle
, &data
));
1456 FindClose( handle
);
1458 if (!peek_dir( dirstack
)) break;
1465 free_dirstack( dirstack
);
1469 TRACE("created %u rows\n", row
);
1470 table
->num_rows
= row
;
1474 static UINT64
get_freespace( const WCHAR
*dir
, UINT64
*disksize
)
1476 WCHAR root
[] = {'\\','\\','.','\\','A',':',0};
1477 ULARGE_INTEGER free
;
1478 DISK_GEOMETRY_EX info
;
1481 free
.QuadPart
= 512 * 1024 * 1024;
1482 GetDiskFreeSpaceExW( dir
, NULL
, NULL
, &free
);
1485 handle
= CreateFileW( root
, GENERIC_READ
, FILE_SHARE_READ
|FILE_SHARE_WRITE
, NULL
, OPEN_EXISTING
, 0, 0 );
1486 if (handle
!= INVALID_HANDLE_VALUE
)
1488 if (DeviceIoControl( handle
, IOCTL_DISK_GET_DRIVE_GEOMETRY_EX
, NULL
, 0, &info
, sizeof(info
), NULL
, NULL
))
1489 *disksize
= info
.DiskSize
.QuadPart
;
1490 CloseHandle( handle
);
1492 return free
.QuadPart
;
1495 static enum fill_status
fill_diskdrive( struct table
*table
, const struct expr
*cond
)
1497 static const WCHAR fmtW
[] =
1498 {'\\','\\','\\','\\','.','\\','\\','P','H','Y','S','I','C','A','L','D','R','I','V','E','%','u',0};
1499 WCHAR device_id
[sizeof(fmtW
)/sizeof(fmtW
[0]) + 10], root
[] = {'A',':','\\',0};
1500 struct record_diskdrive
*rec
;
1501 UINT i
, row
= 0, offset
= 0, index
= 0, type
;
1502 UINT64 size
= 1024 * 1024 * 1024;
1503 DWORD drives
= GetLogicalDrives();
1504 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1506 if (!resize_table( table
, 2, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1508 for (i
= 0; i
< sizeof(drives
); i
++)
1510 if (drives
& (1 << i
))
1513 type
= GetDriveTypeW( root
);
1514 if (type
!= DRIVE_FIXED
&& type
!= DRIVE_REMOVABLE
)
1517 if (!resize_table( table
, row
+ 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1519 rec
= (struct record_diskdrive
*)(table
->data
+ offset
);
1520 sprintfW( device_id
, fmtW
, index
);
1521 rec
->device_id
= heap_strdupW( device_id
);
1523 rec
->interfacetype
= diskdrive_interfacetypeW
;
1524 rec
->manufacturer
= diskdrive_manufacturerW
;
1525 if (type
== DRIVE_FIXED
)
1526 rec
->mediatype
= diskdrive_mediatype_fixedW
;
1528 rec
->mediatype
= diskdrive_mediatype_removableW
;
1529 rec
->model
= diskdrive_modelW
;
1530 rec
->serialnumber
= diskdrive_serialW
;
1531 get_freespace( root
, &size
);
1533 if (!match_row( table
, row
, cond
, &status
))
1535 free_row_values( table
, row
);
1538 offset
+= sizeof(*rec
);
1543 TRACE("created %u rows\n", row
);
1544 table
->num_rows
= row
;
1548 static WCHAR
*get_filesystem( const WCHAR
*root
)
1550 static const WCHAR ntfsW
[] = {'N','T','F','S',0};
1551 WCHAR buffer
[MAX_PATH
+ 1];
1553 if (GetVolumeInformationW( root
, NULL
, 0, NULL
, NULL
, NULL
, buffer
, MAX_PATH
+ 1 ))
1554 return heap_strdupW( buffer
);
1555 return heap_strdupW( ntfsW
);
1558 static enum fill_status
fill_diskpartition( struct table
*table
, const struct expr
*cond
)
1560 static const WCHAR fmtW
[] =
1561 {'D','i','s','k',' ','#','%','u',',',' ','P','a','r','t','i','t','i','o','n',' ','#','0',0};
1562 WCHAR device_id
[32], root
[] = {'A',':','\\',0};
1563 struct record_diskpartition
*rec
;
1564 UINT i
, row
= 0, offset
= 0, type
, index
= 0;
1565 UINT64 size
= 1024 * 1024 * 1024;
1566 DWORD drives
= GetLogicalDrives();
1567 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1569 if (!resize_table( table
, 4, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1571 for (i
= 0; i
< sizeof(drives
); i
++)
1573 if (drives
& (1 << i
))
1576 type
= GetDriveTypeW( root
);
1577 if (type
!= DRIVE_FIXED
&& type
!= DRIVE_REMOVABLE
)
1580 if (!resize_table( table
, row
+ 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1582 rec
= (struct record_diskpartition
*)(table
->data
+ offset
);
1583 rec
->bootable
= (i
== 2) ? -1 : 0;
1584 rec
->bootpartition
= (i
== 2) ? -1 : 0;
1585 sprintfW( device_id
, fmtW
, index
);
1586 rec
->device_id
= heap_strdupW( device_id
);
1587 rec
->diskindex
= index
;
1589 rec
->pnpdevice_id
= heap_strdupW( device_id
);
1590 get_freespace( root
, &size
);
1592 rec
->startingoffset
= 0;
1593 rec
->type
= get_filesystem( root
);
1594 if (!match_row( table
, row
, cond
, &status
))
1596 free_row_values( table
, row
);
1599 offset
+= sizeof(*rec
);
1604 TRACE("created %u rows\n", row
);
1605 table
->num_rows
= row
;
1609 static WCHAR
*get_volumeserialnumber( const WCHAR
*root
)
1611 static const WCHAR fmtW
[] = {'%','0','8','X',0};
1615 GetVolumeInformationW( root
, NULL
, 0, &serial
, NULL
, NULL
, NULL
, 0 );
1616 sprintfW( buffer
, fmtW
, serial
);
1617 return heap_strdupW( buffer
);
1620 static enum fill_status
fill_logicaldisk( struct table
*table
, const struct expr
*cond
)
1622 static const WCHAR fmtW
[] = {'%','c',':',0};
1623 WCHAR device_id
[3], root
[] = {'A',':','\\',0};
1624 struct record_logicaldisk
*rec
;
1625 UINT i
, row
= 0, offset
= 0, type
;
1626 UINT64 size
= 1024 * 1024 * 1024;
1627 DWORD drives
= GetLogicalDrives();
1628 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1630 if (!resize_table( table
, 4, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1632 for (i
= 0; i
< sizeof(drives
); i
++)
1634 if (drives
& (1 << i
))
1637 type
= GetDriveTypeW( root
);
1638 if (type
!= DRIVE_FIXED
&& type
!= DRIVE_CDROM
&& type
!= DRIVE_REMOVABLE
)
1641 if (!resize_table( table
, row
+ 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1643 rec
= (struct record_logicaldisk
*)(table
->data
+ offset
);
1644 sprintfW( device_id
, fmtW
, 'A' + i
);
1645 rec
->device_id
= heap_strdupW( device_id
);
1646 rec
->drivetype
= type
;
1647 rec
->filesystem
= get_filesystem( root
);
1648 rec
->freespace
= get_freespace( root
, &size
);
1649 rec
->name
= heap_strdupW( device_id
);
1651 rec
->volumeserialnumber
= get_volumeserialnumber( root
);
1652 if (!match_row( table
, row
, cond
, &status
))
1654 free_row_values( table
, row
);
1657 offset
+= sizeof(*rec
);
1661 TRACE("created %u rows\n", row
);
1662 table
->num_rows
= row
;
1666 static UINT16
get_connection_status( IF_OPER_STATUS status
)
1670 case IfOperStatusDown
:
1671 return 0; /* Disconnected */
1672 case IfOperStatusUp
:
1673 return 2; /* Connected */
1675 ERR("unhandled status %u\n", status
);
1680 static WCHAR
*get_mac_address( const BYTE
*addr
, DWORD len
)
1682 static const WCHAR fmtW
[] =
1683 {'%','0','2','x',':','%','0','2','x',':','%','0','2','x',':',
1684 '%','0','2','x',':','%','0','2','x',':','%','0','2','x',0};
1687 if (len
!= 6 || !(ret
= heap_alloc( 18 * sizeof(WCHAR
) ))) return NULL
;
1688 sprintfW( ret
, fmtW
, addr
[0], addr
[1], addr
[2], addr
[3], addr
[4], addr
[5] );
1691 static const WCHAR
*get_adaptertype( DWORD type
, int *physical
)
1693 static const WCHAR ethernetW
[] = {'E','t','h','e','r','n','e','t',' ','8','0','2','.','3',0};
1694 static const WCHAR wirelessW
[] = {'W','i','r','e','l','e','s','s',0};
1695 static const WCHAR firewireW
[] = {'1','3','9','4',0};
1696 static const WCHAR tunnelW
[] = {'T','u','n','n','e','l',0};
1700 case IF_TYPE_ETHERNET_CSMACD
: *physical
= -1; return ethernetW
;
1701 case IF_TYPE_IEEE80211
: *physical
= -1; return wirelessW
;
1702 case IF_TYPE_IEEE1394
: *physical
= -1; return firewireW
;
1703 case IF_TYPE_TUNNEL
: *physical
= 0; return tunnelW
;
1704 default: *physical
= 0; return NULL
;
1708 static enum fill_status
fill_networkadapter( struct table
*table
, const struct expr
*cond
)
1710 static const WCHAR fmtW
[] = {'%','u',0};
1711 WCHAR device_id
[11];
1712 struct record_networkadapter
*rec
;
1713 IP_ADAPTER_ADDRESSES
*aa
, *buffer
;
1714 UINT row
= 0, offset
= 0, count
= 0;
1715 DWORD size
= 0, ret
;
1717 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1719 ret
= GetAdaptersAddresses( AF_UNSPEC
, 0, NULL
, NULL
, &size
);
1720 if (ret
!= ERROR_BUFFER_OVERFLOW
) return FILL_STATUS_FAILED
;
1722 if (!(buffer
= heap_alloc( size
))) return FILL_STATUS_FAILED
;
1723 if (GetAdaptersAddresses( AF_UNSPEC
, 0, NULL
, buffer
, &size
))
1725 heap_free( buffer
);
1726 return FILL_STATUS_FAILED
;
1728 for (aa
= buffer
; aa
; aa
= aa
->Next
)
1730 if (aa
->IfType
!= IF_TYPE_SOFTWARE_LOOPBACK
) count
++;
1732 if (!resize_table( table
, count
, sizeof(*rec
) ))
1734 heap_free( buffer
);
1735 return FILL_STATUS_FAILED
;
1737 for (aa
= buffer
; aa
; aa
= aa
->Next
)
1739 if (aa
->IfType
== IF_TYPE_SOFTWARE_LOOPBACK
) continue;
1741 rec
= (struct record_networkadapter
*)(table
->data
+ offset
);
1742 sprintfW( device_id
, fmtW
, aa
->u
.s
.IfIndex
);
1743 rec
->adaptertype
= get_adaptertype( aa
->IfType
, &physical
);
1744 rec
->device_id
= heap_strdupW( device_id
);
1745 rec
->index
= aa
->u
.s
.IfIndex
;
1746 rec
->interface_index
= aa
->u
.s
.IfIndex
;
1747 rec
->mac_address
= get_mac_address( aa
->PhysicalAddress
, aa
->PhysicalAddressLength
);
1748 rec
->manufacturer
= compsys_manufacturerW
;
1749 rec
->name
= heap_strdupW( aa
->FriendlyName
);
1750 rec
->netconnection_status
= get_connection_status( aa
->OperStatus
);
1751 rec
->physicaladapter
= physical
;
1752 rec
->pnpdevice_id
= networkadapter_pnpdeviceidW
;
1753 rec
->speed
= 1000000;
1754 if (!match_row( table
, row
, cond
, &status
))
1756 free_row_values( table
, row
);
1759 offset
+= sizeof(*rec
);
1762 TRACE("created %u rows\n", row
);
1763 table
->num_rows
= row
;
1765 heap_free( buffer
);
1769 static enum fill_status
fill_networkadapterconfig( struct table
*table
, const struct expr
*cond
)
1771 struct record_networkadapterconfig
*rec
;
1772 IP_ADAPTER_ADDRESSES
*aa
, *buffer
;
1773 UINT row
= 0, offset
= 0, count
= 0;
1774 DWORD size
= 0, ret
;
1775 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1777 ret
= GetAdaptersAddresses( AF_UNSPEC
, 0, NULL
, NULL
, &size
);
1778 if (ret
!= ERROR_BUFFER_OVERFLOW
) return FILL_STATUS_FAILED
;
1780 if (!(buffer
= heap_alloc( size
))) return FILL_STATUS_FAILED
;
1781 if (GetAdaptersAddresses( AF_UNSPEC
, 0, NULL
, buffer
, &size
))
1783 heap_free( buffer
);
1784 return FILL_STATUS_FAILED
;
1786 for (aa
= buffer
; aa
; aa
= aa
->Next
)
1788 if (aa
->IfType
!= IF_TYPE_SOFTWARE_LOOPBACK
) count
++;
1790 if (!resize_table( table
, count
, sizeof(*rec
) ))
1792 heap_free( buffer
);
1793 return FILL_STATUS_FAILED
;
1795 for (aa
= buffer
; aa
; aa
= aa
->Next
)
1797 if (aa
->IfType
== IF_TYPE_SOFTWARE_LOOPBACK
) continue;
1799 rec
= (struct record_networkadapterconfig
*)(table
->data
+ offset
);
1800 rec
->index
= aa
->u
.s
.IfIndex
;
1801 rec
->ipconnectionmetric
= 20;
1802 rec
->ipenabled
= -1;
1803 rec
->mac_address
= get_mac_address( aa
->PhysicalAddress
, aa
->PhysicalAddressLength
);
1804 if (!match_row( table
, row
, cond
, &status
))
1806 free_row_values( table
, row
);
1809 offset
+= sizeof(*rec
);
1812 TRACE("created %u rows\n", row
);
1813 table
->num_rows
= row
;
1815 heap_free( buffer
);
1819 static enum fill_status
fill_physicalmemory( struct table
*table
, const struct expr
*cond
)
1821 struct record_physicalmemory
*rec
;
1822 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1825 if (!resize_table( table
, 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1827 rec
= (struct record_physicalmemory
*)table
->data
;
1828 rec
->capacity
= get_total_physical_memory();
1829 if (!match_row( table
, row
, cond
, &status
)) free_row_values( table
, row
);
1832 TRACE("created %u rows\n", row
);
1833 table
->num_rows
= row
;
1837 static WCHAR
*get_cmdline( DWORD process_id
)
1839 if (process_id
== GetCurrentProcessId()) return heap_strdupW( GetCommandLineW() );
1840 return NULL
; /* FIXME handle different process case */
1843 static enum fill_status
fill_process( struct table
*table
, const struct expr
*cond
)
1845 static const WCHAR fmtW
[] = {'%','u',0};
1847 struct record_process
*rec
;
1848 PROCESSENTRY32W entry
;
1850 enum fill_status status
= FILL_STATUS_FAILED
;
1851 UINT row
= 0, offset
= 0;
1853 snap
= CreateToolhelp32Snapshot( TH32CS_SNAPPROCESS
, 0 );
1854 if (snap
== INVALID_HANDLE_VALUE
) return FILL_STATUS_FAILED
;
1856 entry
.dwSize
= sizeof(entry
);
1857 if (!Process32FirstW( snap
, &entry
)) goto done
;
1858 if (!resize_table( table
, 8, sizeof(*rec
) )) goto done
;
1862 if (!resize_table( table
, row
+ 1, sizeof(*rec
) )) goto done
;
1864 rec
= (struct record_process
*)(table
->data
+ offset
);
1865 rec
->caption
= heap_strdupW( entry
.szExeFile
);
1866 rec
->commandline
= get_cmdline( entry
.th32ProcessID
);
1867 rec
->description
= heap_strdupW( entry
.szExeFile
);
1868 sprintfW( handle
, fmtW
, entry
.th32ProcessID
);
1869 rec
->handle
= heap_strdupW( handle
);
1870 rec
->name
= heap_strdupW( entry
.szExeFile
);
1871 rec
->process_id
= entry
.th32ProcessID
;
1872 rec
->pprocess_id
= entry
.th32ParentProcessID
;
1873 rec
->thread_count
= entry
.cntThreads
;
1874 rec
->get_owner
= process_get_owner
;
1875 if (!match_row( table
, row
, cond
, &status
))
1877 free_row_values( table
, row
);
1880 offset
+= sizeof(*rec
);
1882 } while (Process32NextW( snap
, &entry
));
1884 TRACE("created %u rows\n", row
);
1885 table
->num_rows
= row
;
1886 status
= FILL_STATUS_UNFILTERED
;
1889 CloseHandle( snap
);
1893 static inline void do_cpuid( unsigned int ax
, unsigned int *p
)
1899 __asm__("pushl %%ebx\n\t"
1901 "movl %%ebx, %%esi\n\t"
1903 : "=a" (p
[0]), "=S" (p
[1]), "=c" (p
[2]), "=d" (p
[3])
1909 static void get_processor_id( WCHAR
*processor_id
)
1911 static const WCHAR fmtW
[] = {'%','0','8','X','%','0','8','X',0};
1912 unsigned int regs
[4] = {0, 0, 0, 0};
1914 do_cpuid( 1, regs
);
1915 sprintfW( processor_id
, fmtW
, regs
[3], regs
[0] );
1917 static void regs_to_str( unsigned int *regs
, unsigned int len
, WCHAR
*buffer
)
1920 unsigned char *p
= (unsigned char *)regs
;
1922 for (i
= 0; i
< len
; i
++) { buffer
[i
] = *p
++; }
1925 static void get_processor_manufacturer( WCHAR
*manufacturer
)
1927 unsigned int tmp
, regs
[4] = {0, 0, 0, 0};
1929 do_cpuid( 0, regs
);
1930 tmp
= regs
[2]; /* swap edx and ecx */
1934 regs_to_str( regs
+ 1, 12, manufacturer
);
1936 static void get_processor_name( WCHAR
*name
)
1938 unsigned int regs
[4] = {0, 0, 0, 0};
1940 do_cpuid( 0x80000000, regs
);
1941 if (regs
[0] >= 0x80000004)
1943 do_cpuid( 0x80000002, regs
);
1944 regs_to_str( regs
, 16, name
);
1945 do_cpuid( 0x80000003, regs
);
1946 regs_to_str( regs
, 16, name
+ 16 );
1947 do_cpuid( 0x80000004, regs
);
1948 regs_to_str( regs
, 16, name
+ 32 );
1951 static UINT
get_processor_maxclockspeed( void )
1953 PROCESSOR_POWER_INFORMATION
*info
;
1954 UINT ret
= 1000, size
= get_processor_count() * sizeof(PROCESSOR_POWER_INFORMATION
);
1957 if ((info
= heap_alloc( size
)))
1959 status
= NtPowerInformation( ProcessorInformation
, NULL
, 0, info
, size
);
1960 if (!status
) ret
= info
[0].MaxMhz
;
1965 static const WCHAR
*get_osarchitecture(void)
1968 GetNativeSystemInfo( &info
);
1969 if (info
.u
.s
.wProcessorArchitecture
== PROCESSOR_ARCHITECTURE_AMD64
) return os_64bitW
;
1973 static enum fill_status
fill_processor( struct table
*table
, const struct expr
*cond
)
1975 static const WCHAR fmtW
[] = {'C','P','U','%','u',0};
1976 WCHAR device_id
[14], processor_id
[17], manufacturer
[13], name
[49] = {0};
1977 struct record_processor
*rec
;
1978 UINT i
, offset
= 0, maxclockspeed
, num_cores
, num_logical_processors
, count
= get_processor_count();
1979 enum fill_status status
= FILL_STATUS_UNFILTERED
;
1981 if (!resize_table( table
, count
, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
1983 get_processor_id( processor_id
);
1984 get_processor_manufacturer( manufacturer
);
1985 get_processor_name( name
);
1987 maxclockspeed
= get_processor_maxclockspeed();
1988 num_logical_processors
= get_logical_processor_count( &num_cores
) / count
;
1991 for (i
= 0; i
< count
; i
++)
1993 rec
= (struct record_processor
*)(table
->data
+ offset
);
1994 rec
->addresswidth
= get_osarchitecture() == os_32bitW
? 32 : 64;
1995 rec
->cpu_status
= 1; /* CPU Enabled */
1996 sprintfW( device_id
, fmtW
, i
);
1997 rec
->device_id
= heap_strdupW( device_id
);
1998 rec
->family
= 2; /* Unknown */
1999 rec
->manufacturer
= heap_strdupW( manufacturer
);
2000 rec
->maxclockspeed
= maxclockspeed
;
2001 rec
->name
= heap_strdupW( name
);
2002 rec
->num_cores
= num_cores
;
2003 rec
->num_logical_processors
= num_logical_processors
;
2004 rec
->processor_id
= heap_strdupW( processor_id
);
2005 rec
->unique_id
= NULL
;
2006 if (!match_row( table
, i
, cond
, &status
))
2008 free_row_values( table
, i
);
2011 offset
+= sizeof(*rec
);
2014 TRACE("created %u rows\n", count
);
2015 table
->num_rows
= count
;
2019 static WCHAR
*get_lastbootuptime(void)
2021 static const WCHAR fmtW
[] =
2022 {'%','0','4','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u',
2023 '.','%','0','6','u','+','0','0','0',0};
2024 SYSTEM_TIMEOFDAY_INFORMATION ti
;
2028 if (!(ret
= heap_alloc( 26 * sizeof(WCHAR
) ))) return NULL
;
2030 NtQuerySystemInformation( SystemTimeOfDayInformation
, &ti
, sizeof(ti
), NULL
);
2031 RtlTimeToTimeFields( &ti
.liKeBootTime
, &tf
);
2032 sprintfW( ret
, fmtW
, tf
.Year
, tf
.Month
, tf
.Day
, tf
.Hour
, tf
.Minute
, tf
.Second
, tf
.Milliseconds
* 1000 );
2035 static WCHAR
*get_localdatetime(void)
2037 static const WCHAR fmtW
[] =
2038 {'%','0','4','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u',
2039 '.','%','0','6','u','%','+','0','3','d',0};
2040 TIME_ZONE_INFORMATION tzi
;
2046 Status
= GetTimeZoneInformation(&tzi
);
2048 if(Status
== TIME_ZONE_ID_INVALID
) return NULL
;
2050 if(Status
== TIME_ZONE_ID_DAYLIGHT
)
2051 Bias
+= tzi
.DaylightBias
;
2053 Bias
+= tzi
.StandardBias
;
2054 if (!(ret
= heap_alloc( 26 * sizeof(WCHAR
) ))) return NULL
;
2057 sprintfW( ret
, fmtW
, st
.wYear
, st
.wMonth
, st
.wDay
, st
.wHour
, st
.wMinute
, st
.wSecond
, st
.wMilliseconds
* 1000, -Bias
);
2060 static WCHAR
*get_systemdirectory(void)
2065 if (!(ret
= heap_alloc( MAX_PATH
* sizeof(WCHAR
) ))) return NULL
;
2066 Wow64DisableWow64FsRedirection( &redir
);
2067 GetSystemDirectoryW( ret
, MAX_PATH
);
2068 Wow64RevertWow64FsRedirection( redir
);
2071 static WCHAR
*get_codeset(void)
2073 static const WCHAR fmtW
[] = {'%','u',0};
2074 WCHAR
*ret
= heap_alloc( 11 * sizeof(WCHAR
) );
2075 if (ret
) sprintfW( ret
, fmtW
, GetACP() );
2078 static WCHAR
*get_countrycode(void)
2080 WCHAR
*ret
= heap_alloc( 6 * sizeof(WCHAR
) );
2081 if (ret
) GetLocaleInfoW( LOCALE_SYSTEM_DEFAULT
, LOCALE_ICOUNTRY
, ret
, 6 );
2084 static WCHAR
*get_locale(void)
2086 WCHAR
*ret
= heap_alloc( 5 * sizeof(WCHAR
) );
2087 if (ret
) GetLocaleInfoW( LOCALE_SYSTEM_DEFAULT
, LOCALE_ILANGUAGE
, ret
, 5 );
2091 static enum fill_status
fill_os( struct table
*table
, const struct expr
*cond
)
2093 struct record_operatingsystem
*rec
;
2094 enum fill_status status
= FILL_STATUS_UNFILTERED
;
2097 if (!resize_table( table
, 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
2099 rec
= (struct record_operatingsystem
*)table
->data
;
2100 rec
->buildnumber
= os_buildnumberW
;
2101 rec
->caption
= os_captionW
;
2102 rec
->codeset
= get_codeset();
2103 rec
->countrycode
= get_countrycode();
2104 rec
->csdversion
= os_csdversionW
;
2105 rec
->installdate
= os_installdateW
;
2106 rec
->lastbootuptime
= get_lastbootuptime();
2107 rec
->localdatetime
= get_localdatetime();
2108 rec
->locale
= get_locale();
2109 rec
->name
= os_nameW
;
2110 rec
->osarchitecture
= get_osarchitecture();
2111 rec
->oslanguage
= GetSystemDefaultLangID();
2112 rec
->osproductsuite
= 2461140; /* Windows XP Professional */
2113 rec
->ostype
= 18; /* WINNT */
2114 rec
->serialnumber
= os_serialnumberW
;
2115 rec
->servicepackmajor
= 3;
2116 rec
->servicepackminor
= 0;
2117 rec
->suitemask
= 272; /* Single User + Terminal */
2118 rec
->systemdirectory
= get_systemdirectory();
2119 rec
->version
= os_versionW
;
2120 if (!match_row( table
, row
, cond
, &status
)) free_row_values( table
, row
);
2123 TRACE("created %u rows\n", row
);
2124 table
->num_rows
= row
;
2128 static const WCHAR
*get_service_type( DWORD type
)
2130 static const WCHAR filesystem_driverW
[] =
2131 {'F','i','l','e',' ','S','y','s','t','e','m',' ','D','r','i','v','e','r',0};
2132 static const WCHAR kernel_driverW
[] =
2133 {'K','e','r','n','e','l',' ','D','r','i','v','e','r',0};
2134 static const WCHAR own_processW
[] =
2135 {'O','w','n',' ','P','r','o','c','e','s','s',0};
2136 static const WCHAR share_processW
[] =
2137 {'S','h','a','r','e',' ','P','r','o','c','e','s','s',0};
2139 if (type
& SERVICE_KERNEL_DRIVER
) return kernel_driverW
;
2140 else if (type
& SERVICE_FILE_SYSTEM_DRIVER
) return filesystem_driverW
;
2141 else if (type
& SERVICE_WIN32_OWN_PROCESS
) return own_processW
;
2142 else if (type
& SERVICE_WIN32_SHARE_PROCESS
) return share_processW
;
2143 else ERR("unhandled type 0x%08x\n", type
);
2146 static const WCHAR
*get_service_state( DWORD state
)
2148 static const WCHAR runningW
[] =
2149 {'R','u','n','n','i','n','g',0};
2150 static const WCHAR start_pendingW
[] =
2151 {'S','t','a','r','t',' ','P','e','n','d','i','n','g',0};
2152 static const WCHAR stop_pendingW
[] =
2153 {'S','t','o','p',' ','P','e','n','d','i','n','g',0};
2154 static const WCHAR stoppedW
[] =
2155 {'S','t','o','p','p','e','d',0};
2156 static const WCHAR unknownW
[] =
2157 {'U','n','k','n','o','w','n',0};
2161 case SERVICE_STOPPED
: return stoppedW
;
2162 case SERVICE_START_PENDING
: return start_pendingW
;
2163 case SERVICE_STOP_PENDING
: return stop_pendingW
;
2164 case SERVICE_RUNNING
: return runningW
;
2166 ERR("unknown state %u\n", state
);
2170 static const WCHAR
*get_service_startmode( DWORD mode
)
2172 static const WCHAR bootW
[] = {'B','o','o','t',0};
2173 static const WCHAR systemW
[] = {'S','y','s','t','e','m',0};
2174 static const WCHAR autoW
[] = {'A','u','t','o',0};
2175 static const WCHAR manualW
[] = {'M','a','n','u','a','l',0};
2176 static const WCHAR disabledW
[] = {'D','i','s','a','b','l','e','d',0};
2177 static const WCHAR unknownW
[] = {'U','n','k','n','o','w','n',0};
2181 case SERVICE_BOOT_START
: return bootW
;
2182 case SERVICE_SYSTEM_START
: return systemW
;
2183 case SERVICE_AUTO_START
: return autoW
;
2184 case SERVICE_DEMAND_START
: return manualW
;
2185 case SERVICE_DISABLED
: return disabledW
;
2187 ERR("unknown mode 0x%x\n", mode
);
2191 static QUERY_SERVICE_CONFIGW
*query_service_config( SC_HANDLE manager
, const WCHAR
*name
)
2193 QUERY_SERVICE_CONFIGW
*config
= NULL
;
2197 if (!(service
= OpenServiceW( manager
, name
, SERVICE_QUERY_CONFIG
))) return NULL
;
2198 QueryServiceConfigW( service
, NULL
, 0, &size
);
2199 if (GetLastError() != ERROR_INSUFFICIENT_BUFFER
) goto done
;
2200 if (!(config
= heap_alloc( size
))) goto done
;
2201 if (QueryServiceConfigW( service
, config
, size
, &size
)) goto done
;
2202 heap_free( config
);
2206 CloseServiceHandle( service
);
2210 static enum fill_status
fill_service( struct table
*table
, const struct expr
*cond
)
2212 struct record_service
*rec
;
2214 ENUM_SERVICE_STATUS_PROCESSW
*tmp
, *services
= NULL
;
2215 SERVICE_STATUS_PROCESS
*status
;
2216 WCHAR sysnameW
[MAX_COMPUTERNAME_LENGTH
+ 1];
2217 DWORD len
= sizeof(sysnameW
) / sizeof(sysnameW
[0]);
2218 UINT i
, row
= 0, offset
= 0, size
= 256, needed
, count
;
2219 enum fill_status fill_status
= FILL_STATUS_FAILED
;
2222 if (!(manager
= OpenSCManagerW( NULL
, NULL
, SC_MANAGER_ENUMERATE_SERVICE
))) return FILL_STATUS_FAILED
;
2223 if (!(services
= heap_alloc( size
))) goto done
;
2225 ret
= EnumServicesStatusExW( manager
, SC_ENUM_PROCESS_INFO
, SERVICE_TYPE_ALL
,
2226 SERVICE_STATE_ALL
, (BYTE
*)services
, size
, &needed
,
2227 &count
, NULL
, NULL
);
2230 if (GetLastError() != ERROR_MORE_DATA
) goto done
;
2232 if (!(tmp
= heap_realloc( services
, size
))) goto done
;
2234 ret
= EnumServicesStatusExW( manager
, SC_ENUM_PROCESS_INFO
, SERVICE_TYPE_ALL
,
2235 SERVICE_STATE_ALL
, (BYTE
*)services
, size
, &needed
,
2236 &count
, NULL
, NULL
);
2237 if (!ret
) goto done
;
2239 if (!resize_table( table
, count
, sizeof(*rec
) )) goto done
;
2241 GetComputerNameW( sysnameW
, &len
);
2242 fill_status
= FILL_STATUS_UNFILTERED
;
2244 for (i
= 0; i
< count
; i
++)
2246 QUERY_SERVICE_CONFIGW
*config
;
2248 if (!(config
= query_service_config( manager
, services
[i
].lpServiceName
))) continue;
2250 status
= &services
[i
].ServiceStatusProcess
;
2251 rec
= (struct record_service
*)(table
->data
+ offset
);
2252 rec
->accept_pause
= (status
->dwControlsAccepted
& SERVICE_ACCEPT_PAUSE_CONTINUE
) ? -1 : 0;
2253 rec
->accept_stop
= (status
->dwControlsAccepted
& SERVICE_ACCEPT_STOP
) ? -1 : 0;
2254 rec
->displayname
= heap_strdupW( services
[i
].lpDisplayName
);
2255 rec
->name
= heap_strdupW( services
[i
].lpServiceName
);
2256 rec
->process_id
= status
->dwProcessId
;
2257 rec
->servicetype
= get_service_type( status
->dwServiceType
);
2258 rec
->startmode
= get_service_startmode( config
->dwStartType
);
2259 rec
->state
= get_service_state( status
->dwCurrentState
);
2260 rec
->systemname
= heap_strdupW( sysnameW
);
2261 rec
->pause_service
= service_pause_service
;
2262 rec
->resume_service
= service_resume_service
;
2263 rec
->start_service
= service_start_service
;
2264 rec
->stop_service
= service_stop_service
;
2265 heap_free( config
);
2266 if (!match_row( table
, row
, cond
, &fill_status
))
2268 free_row_values( table
, row
);
2271 offset
+= sizeof(*rec
);
2275 TRACE("created %u rows\n", row
);
2276 table
->num_rows
= row
;
2279 CloseServiceHandle( manager
);
2280 heap_free( services
);
2284 static UINT32
get_bits_per_pixel( UINT
*hres
, UINT
*vres
)
2286 HDC hdc
= GetDC( NULL
);
2289 if (!hdc
) return 32;
2290 ret
= GetDeviceCaps( hdc
, BITSPIXEL
);
2291 *hres
= GetDeviceCaps( hdc
, HORZRES
);
2292 *vres
= GetDeviceCaps( hdc
, VERTRES
);
2293 ReleaseDC( NULL
, hdc
);
2296 static WCHAR
*get_pnpdeviceid( DXGI_ADAPTER_DESC
*desc
)
2298 static const WCHAR fmtW
[] =
2299 {'P','C','I','\\','V','E','N','_','%','0','4','X','&','D','E','V','_','%','0','4','X',
2300 '&','S','U','B','S','Y','S','_','%','0','8','X','&','R','E','V','_','%','0','2','X','\\',
2301 '0','&','D','E','A','D','B','E','E','F','&','0','&','D','E','A','D',0};
2304 if (!(ret
= heap_alloc( sizeof(fmtW
) + 2 * sizeof(WCHAR
) ))) return NULL
;
2305 sprintfW( ret
, fmtW
, desc
->VendorId
, desc
->DeviceId
, desc
->SubSysId
, desc
->Revision
);
2309 static enum fill_status
fill_videocontroller( struct table
*table
, const struct expr
*cond
)
2312 struct record_videocontroller
*rec
;
2314 IDXGIFactory
*factory
= NULL
;
2315 IDXGIAdapter
*adapter
= NULL
;
2316 DXGI_ADAPTER_DESC desc
;
2317 UINT hres
= 1024, vres
= 768, vidmem
= 512 * 1024 * 1024;
2318 const WCHAR
*name
= videocontroller_deviceidW
;
2319 enum fill_status status
= FILL_STATUS_UNFILTERED
;
2322 if (!resize_table( table
, 1, sizeof(*rec
) )) return FILL_STATUS_FAILED
;
2324 memset (&desc
, 0, sizeof(desc
));
2325 hr
= CreateDXGIFactory( &IID_IDXGIFactory
, (void **)&factory
);
2326 if (FAILED(hr
)) goto done
;
2328 hr
= IDXGIFactory_EnumAdapters( factory
, 0, &adapter
);
2329 if (FAILED(hr
)) goto done
;
2331 hr
= IDXGIAdapter_GetDesc( adapter
, &desc
);
2334 vidmem
= desc
.DedicatedVideoMemory
;
2335 name
= desc
.Description
;
2339 rec
= (struct record_videocontroller
*)table
->data
;
2340 rec
->adapter_dactype
= videocontroller_dactypeW
;
2341 rec
->adapter_ram
= vidmem
;
2342 rec
->availability
= 3; /* Running or Full Power */
2343 rec
->current_bitsperpixel
= get_bits_per_pixel( &hres
, &vres
);
2344 rec
->current_horizontalres
= hres
;
2345 rec
->current_verticalres
= vres
;
2346 rec
->description
= heap_strdupW( name
);
2347 rec
->device_id
= videocontroller_deviceidW
;
2348 rec
->name
= heap_strdupW( name
);
2349 rec
->pnpdevice_id
= get_pnpdeviceid( &desc
);
2350 if (!match_row( table
, row
, cond
, &status
)) free_row_values( table
, row
);
2353 TRACE("created %u rows\n", row
);
2354 table
->num_rows
= row
;
2356 if (adapter
) IDXGIAdapter_Release( adapter
);
2357 if (factory
) IDXGIFactory_Release( factory
);
2361 static struct table builtin_classes
[] =
2363 { class_baseboardW
, SIZEOF(col_baseboard
), col_baseboard
, SIZEOF(data_baseboard
), 0, (BYTE
*)data_baseboard
},
2364 { class_biosW
, SIZEOF(col_bios
), col_bios
, SIZEOF(data_bios
), 0, (BYTE
*)data_bios
},
2365 { class_cdromdriveW
, SIZEOF(col_cdromdrive
), col_cdromdrive
, 0, 0, NULL
, fill_cdromdrive
},
2366 { class_compsysW
, SIZEOF(col_compsys
), col_compsys
, 0, 0, NULL
, fill_compsys
},
2367 { class_datafileW
, SIZEOF(col_datafile
), col_datafile
, 0, 0, NULL
, fill_datafile
},
2368 { class_directoryW
, SIZEOF(col_directory
), col_directory
, 0, 0, NULL
, fill_directory
},
2369 { class_diskdriveW
, SIZEOF(col_diskdrive
), col_diskdrive
, 0, 0, NULL
, fill_diskdrive
},
2370 { class_diskpartitionW
, SIZEOF(col_diskpartition
), col_diskpartition
, 0, 0, NULL
, fill_diskpartition
},
2371 { class_logicaldiskW
, SIZEOF(col_logicaldisk
), col_logicaldisk
, 0, 0, NULL
, fill_logicaldisk
},
2372 { class_logicaldisk2W
, SIZEOF(col_logicaldisk
), col_logicaldisk
, 0, 0, NULL
, fill_logicaldisk
},
2373 { class_networkadapterW
, SIZEOF(col_networkadapter
), col_networkadapter
, 0, 0, NULL
, fill_networkadapter
},
2374 { class_networkadapterconfigW
, SIZEOF(col_networkadapterconfig
), col_networkadapterconfig
, 0, 0, NULL
,
2375 fill_networkadapterconfig
},
2376 { class_osW
, SIZEOF(col_os
), col_os
, 0, 0, NULL
, fill_os
},
2377 { class_paramsW
, SIZEOF(col_param
), col_param
, SIZEOF(data_param
), 0, (BYTE
*)data_param
},
2378 { class_physicalmediaW
, SIZEOF(col_physicalmedia
), col_physicalmedia
, SIZEOF(data_physicalmedia
), 0, (BYTE
*)data_physicalmedia
},
2379 { class_physicalmemoryW
, SIZEOF(col_physicalmemory
), col_physicalmemory
, 0, 0, NULL
, fill_physicalmemory
},
2380 { class_processW
, SIZEOF(col_process
), col_process
, 0, 0, NULL
, fill_process
},
2381 { class_processorW
, SIZEOF(col_processor
), col_processor
, 0, 0, NULL
, fill_processor
},
2382 { class_qualifiersW
, SIZEOF(col_qualifier
), col_qualifier
, SIZEOF(data_qualifier
), 0, (BYTE
*)data_qualifier
},
2383 { class_serviceW
, SIZEOF(col_service
), col_service
, 0, 0, NULL
, fill_service
},
2384 { class_sounddeviceW
, SIZEOF(col_sounddevice
), col_sounddevice
, SIZEOF(data_sounddevice
), 0, (BYTE
*)data_sounddevice
},
2385 { class_stdregprovW
, SIZEOF(col_stdregprov
), col_stdregprov
, SIZEOF(data_stdregprov
), 0, (BYTE
*)data_stdregprov
},
2386 { class_videocontrollerW
, SIZEOF(col_videocontroller
), col_videocontroller
, 0, 0, NULL
, fill_videocontroller
}
2389 void init_table_list( void )
2391 static struct list tables
= LIST_INIT( tables
);
2394 for (i
= 0; i
< SIZEOF(builtin_classes
); i
++) list_add_tail( &tables
, &builtin_classes
[i
].entry
);
2395 table_list
= &tables
;